All-In with Chamath, Jason, Sacks & Friedberg - Supercharging a New FDA: Marty Makary on Science, Power & Patients
Episode Date: January 15, 2026(0:00) Friedberg intros FDA Commissioner Marty Makary (3:21) Inside the 42 major FDA reforms in 10 months (7:51) The China Race: Winning back biotech leadership (13:14) Accelerating drug approvals saf...ely, how to cut down on clinical trial timelines (33:13) Reshaping the failed Food Pyramid (41:29) GLP-1s and America's Obesity Epidemic (49:54) Rethinking vaccines from first principles (59:40) Lowering drug prices, the power of AI for healthcare (1:18:57) What causes autism? Follow Marty Makary: https://x.com/DrMakaryFDA Follow the besties: https://x.com/chamath https://x.com/Jason https://x.com/DavidSacks https://x.com/friedberg Follow on X: https://x.com/theallinpod Follow on Instagram: https://www.instagram.com/theallinpod Follow on TikTok: https://www.tiktok.com/@theallinpod Follow on LinkedIn: https://www.linkedin.com/company/allinpod Intro Music Credit: https://rb.gy/tppkzl https://x.com/yung_spielburg Intro Video Credit: https://x.com/TheZachEffect
Transcript
Discussion (0)
Marty McCarrie, Commissioner of the FDA. Welcome to San Francisco.
Great to be here, Dave. Good to be with you.
Yeah, thanks. It's J.P. Morgan Healthcare Conference this week in San Francisco
considered, I think, probably the biggest, most important biotech conference globally.
Very important week. So you're visiting this week for the conference?
Yeah. 120,000 people. Great conversations. You hear from everybody. Just not enough time to meet
with everybody you want to meet with, but it's a great time.
Well, thanks for sitting down with me. You and I have gotten to know each other a little bit over the last
year or so. Yeah. And I'm really excited to hear a little bit about how things are going. It's been
almost a year since you've been in the role. I think maybe for our audience, you could share a little
bit about how you got this role. How did you get involved with this administration? How did you
get connected with them? And maybe we can go all the way back to your very outspoken views
during the COVID pandemic and maybe how that brought attention to you and your philosophies that
drove this role. Yeah. So my interest in academia, I, um,
went to graduate school for public health and served on the faculty of the Johns Hopkins School of
Public Health as I also had a clinical practice in GI and cancer surgery at Johns Hopkins.
And my interest was always in the root causes of our healthcare system problems,
from quality, transparency, and price. And in the work on price,
I led sort of a national effort to try to get more price transparency of hospital prices.
I wrote a book on it that did very well.
It took me to the White House where they had read the book, invited me in.
And in that first Trump administration, we had a lot of great conversations.
And then they implemented the idea.
And I was so impressed.
This makes sense.
You know, we want common sense ideas.
And so we got the hospital price transparency executive order signed by the president.
That's where I developed some of the relationships and got to know the folks.
And then when President Trump got reelected, he gave me a call days after the election.
And I was very honored to be offered this role.
So it's been awesome.
COVID, you mentioned COVID.
It was a crazy time.
I mean, the sort of sociology of medical dogma is a fascinating historical thing.
And we still suffer from it.
Paternalism, the sort of suppressing ideas that are not the legacy ideas,
the sort of sacrificing the basic principles of science to question everything to have no sacred cows.
And you saw the worst of that bad behavior during COVID.
cloth masks on toddlers for three years,
vaccine mandates for young college students,
recommending COVID boosters with such absolutism
and young healthy children.
Ignoring natural immunity, one of the most scientifically
dishonest things that scientists could possibly say
about the virus and the immunity.
And shutting kids out of school for nearly two years,
which I fought tooth and nail,
along with Jay Bhattachari and other,
starting in the fall of 2020.
Initially, we were okay just doing stuff
while we didn't understand it.
But once the data emerged,
we made a strong case to reopen the schools.
And to some degree, I feel like we lost that battle.
But people now see that the data has caught up
with public health officials.
And so I'm proud to be in office now
to be a part of an effort to rebuild public trust
in our health institutions.
And you must be having a lot of conflict then
because you really are fundamentally
trying to rewrite the way these institutions operate, have operated. And in some sense, you are
degrading the success and the career and the authority that some have vested themselves over time
in those roles. How has that been? And what's the pushback been like as you've kind of gone
through this exercise? So I meet with folks at the FDA. And if you meet with them with their bosses
and everybody in the room to get a briefing on a topic, then they give you one,
story, but if you meet with one individual scientific reviewer and give them the safety
of anonymity and say, look, I want to hear how is it going on the ground? Or what big
ideas do you have that you've always wanted to do but not been able to do? Four out of five
people or sometimes more will not really give you anything interesting. But then somebody
will say, you know, it makes no sense that we do it this way and we could do it better and
could do it this way, something they wouldn't feel comfortable offering if their supervisor
were in the room.
And so we've been running with these ideas.
We have announced 42 major reforms in my 10 months in office at the FDA.
And it has challenged the status quo of doing things, but we have to.
I mean, why does it take 10 to 12 years for a new drug to come to market?
We've become so lukewarm and passive accepting that horrible timeline that is just
become the status quo. We've got to challenge these deeply held assumptions and we're doing it.
We are doing it with new programs, new priority reviews, new pilots, new forms of transparency.
We made our rejection letters public so that if the FDA does not approve a drug, the public
deserves to know why. And it creates accountability. And that was not the case before.
They talked about it for 30 years and we got it done. They talked about banning one food die
for 35 years. Within weeks of coming into office, we took action to remove all night.
artificial petroleum-based dye.
So we're getting stuff done.
We're not afraid to move fast.
And in that role, some people have left the FDA,
and then they've been outspoken critics of yourself.
Maybe you can respond to some of the criticisms,
that it's chaotic, that there's a lot of turmoil.
I've worked at many startups.
I know that when you move fast,
things feel, or they may feel too busy,
or they may feel like there's too much going on.
It's overwhelming at times,
but at the end of the day, progress is what matters.
Maybe you could just comment on some of the
reports made by employees that have quit the FDA left and provided some comments on how things
are going? There were 2,000 HR people at the FDA just before I got there. There were 1,500
IT people. And so... So for staff of how many total? 20,000 employees just before I got there. And so
there was a goal to say, hey, we're going to go back to 2019 staffing levels and the cuts are not going to be to
were reviewers. No scientific reviewer was laid off, but there were significant consolidations
in HR, procurement, IT, and the duplicative services that were out there. Now, anytime you do
something in government, you take headline risk, but we felt it was the right thing to do.
And so I came in right after that massive sort of change. And since then, we've had a great culture.
We've had more teamwork. We have new leaders, and they believe in this new.
vision, the number one priority of the commissioner that preceded me, he said, was to fight misinformation.
Well, my number one priority is not to censor Americans, it's to deliver more cures and meaningful
treatments faster to the American public and healthier food for children.
And I think every employee at the FDA knows that mission.
We have incredible teamwork.
Our turnover rate is at the baseline 5 to 7 percent that has been there for the last 10 years
at the agencies. So there's no exodus, there's no mass departures. We are actually hiring
1,050 new scientists because we have very ambitious goals on our new pathways, accelerated-type
pathways. And so we're building up capacity to have a whole new line of pathways so that we can
deliver faster for the American people. Great. Well, look, let's start with a framing. The framing is
the U.S. versus China. I want to read this report that came from
the Congressional National Security Commission on Emerging Biotechnology.
We're here at a biotech conference, so I figured we could start here because everyone's talking
about China and the race against China.
The US, according to this commission, has a three-year window to act to keep up with
Chinese innovation and the speed in biotech.
In 2022, Chinese companies were just 5% of licensing deals, 2025, 42%.
And recently, one of the biggest licensing deals ever was 3S bio.
1.25 billion up front with a $6 billion total with Pfizer. China had 10 years ago, only 50%
of published scientific papers to the US. Today they're 50% more than the US. So I just want
to walk through your view on US biopharma innovation as it relates to China. Is there a race?
And if so, what are the priorities for the administration in helping American biotech industry
remain competitive.
There is a race and when we came to office,
we were losing that race.
We were behind.
We were getting clot by China,
by Australia and other countries
that were doing things more efficiently
with less red tape.
And we made it a massive priority to say
we need to retain our number one position
in life sciences and biomedical research.
And we've got to think innovatively.
So we can come up with some protection of stress,
But ultimately what we need to do is be more competitive with what's going on with phase
ones and I&Ds overseas.
So that means we need to rethink our entire phase one process.
We have to convene hospitals who are, so part of the problem is outside of the walls of the
FDA.
When hospitals have IRBs, that is the institutional review board that approve research, that meet
monthly.
And you know, at Johns Hopkins, I had a study.
took a year and a half to go through the IRB, it was a survey.
What are we worried about?
It was a nutrition survey.
And at the end of a year and a half, it was not approved.
That kind of stuff is intolerable when we're competing with China,
where they're doing phase ones in four weeks,
with Australia that's doing phase ones in six weeks.
And so we need to have more centralized IRBs,
and we need to streamline the hospital contracting.
Because right now, if you want to do a trial,
each hospital wants to negotiate their margin of what they want
and ensure they have to customize the contract
because every study is different,
has different requirements and resources that are needed.
But you go to Australia and they say,
sure, sign here on the dotted line.
You have access to these 14 hospitals or so.
And so we have got to have more centralized contracting
and a centralized IRB in order to compete.
Those are big priorities.
and we also have to reduce the red tape and regulation on our own I&Ds phase ones.
And the entire process, you know, when we came in, it took 60 days for the FDA just to tell you
whether or not they were going to consider a supplemental application.
I mean, that kind of stuff is intolerable in the modern world.
It took and, you know, often still takes 60 days just for the FDA to tell you that your application is complete.
We're going to get that down to one day.
We're going to use AI.
So we've got to modernize the agency and be more competitive, not just talk about protectionist
strategies.
As you think about those work streams in improving the efficiency, turnaround time,
how much can you do this on your own versus how much do you need Congress to act to pass legislation
to support those changes?
And are there priorities that you're working with Congress on to try and accelerate drug
approval timelines that are necessary?
So right now we have user fees, which,
means if you submit an application, there's a fee associated with it because there's an unknown
number of applications each year. So it's a system that's been around for a while. And so I'd like
to see those user fees much higher if your phase one is done overseas. And if it's done in the United
States, it's going to be a lower user fee. That's what I'd like to see. It's an America First
Policy. I'd love Congress to do a bunch of stuff, but we're not going to wait for them.
Congress is slow. We're moving incredibly fast. You know, our number one goal was
to make sure that the morale was good,
the culture is good, and the trains are running on time
coming in right after the restructuring.
I'm proud to report this year in 2025, this past year,
we hit 100% of our user feed target dates,
that is, the trains were all running on time,
that every accept or reject decision by the FDA
was consistent with the accept or reject decision
by the primary review team.
That is, we're not doing secret deals,
we're not messing with things.
We are standing by our scientists.
And last month, we had a record number of drugs approved by our Center for Biologics,
selling gene therapies and other nine drugs.
And so we want to keep going hard and strong and innovate.
But the first goal in the first nine months was to make sure the trains are running on time
and that we are strong.
And I'm happy to report.
The FDA is strong and is going to continue to be strong.
And going back to this point about cutting down on timelines for phase one, two, three,
Maybe you can just for the audience that may not work in this industry, very briefly explain phase one, two, three.
And then where we think there's the biggest kind of, call it excess regulatory burden that's causing these extended timelines on drug approvals, just to kind of frame it up a little bit.
Sure.
So there's something called the IND, investigational new drug registration process. That's step one.
Most of those are actually filed by academics.
And I think people forget that we still have a lot of great innovation in our academic spaces.
It's not just the pharma labs.
Then you try a drug in healthy subjects.
That's called a phase one trial.
Typically a small number, a handful.
And then you give the drug to subjects with the condition, and that's a phase two.
It's a limited study.
And then phase three is a large randomized controlled trial.
We call it the pivotal trial.
We announced just last month that we were going to go from a baseline
default requirement of two pivotal trials for a drug to one pivotal trial for a drug.
It's just math. You can achieve the same statistical power if you design one good clinical
trial properly with a good control group. And so that by the way, that saves like a hundred
million dollars to three hundred million dollars for some companies. Shortens the time.
We're reducing animal testing. That's the pre-I-ND or pre-phase one work. That is, how does it work in
animals. We are eliminating a lot of animal testing requirements. We have a roadmap. You no longer
officially have to submit chimpanzee studies for monoclonal antibodies that was announced two months ago.
We said, so typically 144 chimpanzees are used for a monoclonal antibody. By the way,
it's a joke. You're making me sick because this has always been, from my point of view, one of the
most troubling bioethical concerns I've had about the industry, because
you don't get a lot of statistical power or benefit from doing this,
and it's just awful that we do it.
You actually get misleading information sometimes.
Some say aspirin would not have been approved today
if we had the old animal testing requirements, two species,
because drugs that have safety concerns in animals
may not have safety concerns in humans.
So we may miss out on cures, and vice versa,
90% of drugs that pass animal studies do not pass safety and efficacy in humans.
So what are we doing?
We have computational modeling now.
A computer can look at a drug and actually make better predictions.
And we have something called organ-onaut chip technology where you grow, say the liver cells or
heart cells in a lab, administer the drug, and then look for any enzyme leaks or disturbances.
These are modern techniques.
We've got to modernize the agency.
It's a massive goal.
And they're doing it in China.
They're doing it in China.
And if we don't, then we're also putting our industry at risk.
We've got to be more competitive, 100%.
And so what does this do?
It compresses the time for approval.
It allows R&D to be done at a lower price point, translating into lower drug prices for
everyday Americans.
More drugs can be evaluated.
I mean, I had one pharma executive tell me, hey, I love you're going from two to one pivotal
trials.
That means we can run twice as many drugs through large pivotal trials.
That's what we want.
We want to see more.
Look, I'm coming in with a, we all have our biases.
I have a bias.
And it's just a matter of recognizing your biases when we talk about reforms.
My bias is being at the.
bedside breaking bad news to people within curable conditions or being at the bedside in the
ICU and when you do that it has a profound impact on your brain and your soul and you think about
what can we possibly do to give this individual some hope and so when i see a 10 to 12 year time
period of bringing a drug to market i think in the modern world it makes no sense just think about the
that advances in science and technology.
So I'm committed to that mission and we've got a new pilot program now to get decisions
out in weeks.
It's unheard of, it's unprecedented.
We have the first medication we just announced after 55 days.
We have a lot to change in the workflow to get that time frame down, but we have, I think,
18 products that have vouchers for this new pilot program.
If you're going to do something new, you have to pick criteria.
You could either do it randomly, or you can pick criteria.
So the criteria we chose are drugs in line with our national priorities, unmet public health
need, say a new, amazing cure for cancer where the tumor shrinks in front of your eyes and
you don't need surgery or chemo.
That's a real thing.
I'm actually giving you a real example.
We gave those companies a voucher.
If you're bringing manufacturing back to the United States, that's a national security issue.
And if you are going to make the drug affordable, that's an access issue, and that's a massive
priority for this president, is lowering drug prices.
So we have this pilot underway and it's going extremely well.
So the drug company gets a voucher if they qualify under one of those three criteria and
that gives them a fast track.
That's right.
Yeah.
And when will we get a readout on how that program's going and whether it becomes standard?
So internally, it's going great.
I mean, I've got employees at the FDA tell me, gosh, I love this.
it makes sense and the reason we haven't done it before is that we farm out the application
to a dozen offices and everybody has until the target date to get their final reports in.
Well the target date is about a year.
So if you are an expeditious scientist or you have the ability to go do your work expeditiously
and in two weeks you have your result, well it doesn't matter because the farm tax person
or whoever else is another private has a number.
until the day before, guess when they're going to submit it?
The day before.
So we are changing the incentives internally,
the bonus structure, we're changing the alignment,
we're changing the culture, and our goal
is to streamline that process.
Going back to the computational point,
we are collecting more data, digitizing that data
on patients than ever before.
That data should generally be accessible.
Is there a world where we can transition
from phase one, phase two, phase three trials
into a phase one, phase two, slash three?
by taking into account all of this additional data.
Some people have talked about the idea of using AI
plus other health data that's collected
and allowing the phase three to kind of roll into phase two
and create a much more expedited, computationally assisted approval process.
Is that something that's on the roadmap or is discussed?
Absolutely.
There has been tinkering of combining phase one and two,
phase one, two hybrid trials, phase two and three hybrid trials,
approving something.
with sort of a preliminary approval after phase two, if the results are really promising.
And those are all steps in the right direction.
But I think of something much bigger.
Can we move to continuous trials?
Can we use Bayesian statistical evaluation, which we announced this week?
We are now going to allow Bayesian statistics to be used.
So now you can, if something works, instead of having a committee meet twice a year to do a cut of the data and print it out
and everybody looks at it, I mean, I was literally on those committees.
Why can't we in real time with AI tools figure out when there's a safety signal or efficacy established
and then call it at that point, allowing more people to get the drug as soon as we know it works?
And is there more continuous tracking that's also possible to look for risks and issues that start
to emerge in certain populations? Because this is something that it's almost like the approval happens and then
you find out years later that, well, maybe there was an issue that we should have caught sooner.
And if you move to a more data-driven, continuous observational system, can you both have faster
approvals, but also faster recognition of safety concerns for specific population?
Yeah, I love the way you're thinking.
So I want to see continuous trials with endpoints in the cloud so that the reviewers are looking
on to the endpoint.
You don't do your freshman year of college and then submit a giant 50,000-page application
to start your sophomore year.
And then do your sophomore year and start another 50 page up to start your, but that's what
we're doing at the FDA.
Now look, it had good intentions, but we live in a modern world.
We're using computers now, not stone tablets.
And so we can run more continuous trials.
That's the goal.
And we can use Bayesian statistics, which we announced this week, a big sort of new milestone
with that.
And I want to see, I want to see us continue.
to have eyes on a drug after approval.
So approval is sort of a point where we say,
hey, the world can use it with a fair degree of confidence
on the safety and efficacy trade-off.
But why did we learn five years after Vioxx was approved
that it may have killed 38,000 people?
Well, in the modern world with big data,
we can have eyes on a drug as it's being used,
in real time to call out that safety signal immediately and let people know.
It may be a subgroup of people that are affected.
Maybe a drug-drug interaction.
You know, you think about the opioid epidemic, 15 years of prescribing it, having no idea.
And I'm guilty.
I was doing this.
I was prescribing it.
My patients were getting addicted, coming back for refills.
I thought it was kind of a one-off thing.
You know, a lot of people come back, ask for refills.
No, it was a national pattern we should have identified big data.
And so we're going to do post-market surveillance in a way like we've never seen before using big data.
And if we get it right, if we get it right, and there's a big priority, it can actually change the threshold of approval because you know you're going to have eyes on a drug immediately.
For people in the general audience to understand, this begs the question, and I think people will bring this up as a critique of absolute safety.
I always talk about the example of you put the Waymos or the autonomous cars on the road.
They cut down on fatalities by 95%.
But as soon as one person gets killed by a Waymo, the media goes crazy and says these autonomous cars are killing people.
And this begs the question about the understanding of safety and risk versus the benefit that can accrue.
You know, I was sharing with you about a family member who had to wait a long time to get a certain therapeutic.
And I was thinking about the thousands of people that died in that same period of time.
Fortunately, he was able to get the therapeutic, but all the people that died because they couldn't get access to this drug.
How do we convey to the general population the idea that speed matters in saving lives and this question about absolute safety and absolute risk around drug approval?
This is really important when you talk about risk to a general audience.
How do you convey that second order effect?
That's right.
So, safeties are number one priority.
We are to safeguard the public.
But having eight months of 144 chimpanzees undergoing studies has risks to the general public.
You may be holding back a curative medication for eight months, not identifying the efficacy in a trial with Bayesian statistics.
early enough has risks because that extra lag period is time when patients like the
patients that I treated at Johns Hopkins are told sorry we don't know of anything out
there so time delays that are unnecessary have risks and I think that is
something we don't think about in the FDA you know enough at the FDA we think
oh we have this concern let's sleep on it okay well you get a night to sleep on it not
nine months so I want to give a flip side to this the
The right to try law gives patients access to drugs that when they're in a certain condition,
they can access the drug before it's gone through full approvals.
What's the current state of right to try?
Where do you view that going?
And does the threshold for right to try change over time giving patients and their doctors
more rights and more access sooner?
Or does the FDA still have to hold firm?
How do you think about that over time?
So I believe in both the letter and the spirit of right to try.
It's an amazing achievement of President Trump and the
his first term. And I have signed 100% of right to try requests that come across my desk.
Of course, the companies have to agree to make the medication available. But it's a great
program. And like, we don't want people getting spun up on snake oil that doesn't work. That's
cost $3 million where their churches are doing GoFundMe campaigns when we know a drug does not
work. So we do have a responsibility. And we do, we have to be good stewards of the Medicare
program they're using taxpayer dollars to fund things. But if there's a signal that something works
and somebody wants to try a drug, who are we to say you can't? So we look at safety, but beyond
safety, we have to be as flexible as possible with our regulation. And we announced just
this week that we are getting rid of some of the regulatory requirements for cell and gene
therapy. Now those are used for a lot of rare diseases, but we had requirements what we
call PPQ runs for batches of it's part of the manufacturing requirements for cell and gene
therapies. We were holding them to the same standards we were for say mass manufacturing of a
pill. Well, a cellar gene therapy can be developed in a lab at UCSF or Stanford and are we going
to require that they use the same manufacturing broad standards to do multiple batches when you've
got a scientific platform that works, a vector platform that works, and you're basically doing
surgery on the human genome just in different locations. So we made that announcement earlier
this week. So let me just understand that one. I've spent a little time in the space. Does this
mean that I will not need to go through a GMP or good manufacturing practice facility to bring
those therapeutics to a broader set of patients? And does it also mean that once I've got a system
that works, I can use it for different indications and maybe help understand a little bit about where
this goes because there's many patients that today are looking at papers on cell and gene
therapies, early data, and they're saying, when can I get access? I'm at risk. This matters a lot
to patients and maybe you can help contextualize how this translates into speed and access.
Yeah, so the announcement that we made on Sunday was that we're going to customize the
manufacturing requirements to the drug and the population being treated. So there's a number of
flexibilities, including the ones you mentioned, but it's no longer going to be this
hard and fast, you have to do it this way.
For example, the three batch runs that have been required.
Those ingredients are expensive.
I mean, those ingredients could cost $100,000
for just one ingredient.
And so we have to use common sense.
I mean, when you see something perform,
you know, something magical to a kid with no help
right in front of your eyes, you've gotta say,
like, what are we doing getting in the way?
We just had early in our time
there baby KJ go from go home from the hospital right so this infant got
gene editing therapy you can't do a randomized trial on that there's not
enough kids who have it so we these bespoke therapies we created essentially a
novel pathway for them dr. Vittipersad described it in the New England
Journal of Medicine it's called the plausible mechanism pathway and it's
basically combining gold standard science for common sense right and what
about for KART tea therapy so there's this
blossoming class of therapeutics in CAR-T that's historically been used exclusively for oncology,
for cancer, increasing discussion about using it for autoimmune conditions.
Does this help with the CAR-T therapy pathway and enabling faster routes to market and more
access and lower cost?
It can.
And by the way, CAR-T-'s amazing.
I'm not here to promote any one class of drugs.
But, I mean, the stuff that we have seen is mind-boggling.
So yes.
And just for folks to understand, when they take T cells, edit them, and put them back
in the body, and those T cells go after targets in the body and destroy those targets.
And many blood cancers are now seeing extraordinary results with these CART therapies.
And now they're going after autoimmune conditions.
But it definitely seems to be that there needs to be a faster path to market lower cost,
because the pricing is half a million to a million dollars still.
Yeah, it's amazing.
We're essentially activating your own immune cells to have,
a very clear path and target something in your body that needs to be targeted.
So it's now we did find that there was in the Biden administration approval to have the
cells of Americans for CAR-T therapy shipped to China where the Chinese did the gene editing
and then shipped back to the United States to infuse in Americans.
When I found out about that, we shut that thing down so fast.
Wow.
Yeah.
So we have to do things carefully.
What else have you discovered since you've been in the FDA?
that shocked you.
Oh, man.
Let's just go on an aside for a second.
I'm curious to know what are the biggest shocks that you've uncovered.
I mean, you've now been there for some time.
You mentioned before we sat down that you're actively digitizing millions of files that historically
have not been digitized.
And I'm assuming you can now use AI and other tools to go read through them very quickly.
What's been shocking to you?
Where do I start?
I mean, somebody was carrying a box from one building to another building with a, uh, you
with a drug file in it.
And it turns out that the lawyers said they couldn't email
the information to the other center
because each center was like their own secret government
before we got there.
Each center of the FDA.
Same agency.
Same agency, seven centers.
It was like, you know, they had their own boundaries
and territories and lawyers, they had their own communication staff,
put out their own releases,
their own press releases, did their own legislative affairs, had to schedule their own hearings.
And the commissioner was out of the loop sometimes. And so we restructured the entire agency now.
We centralized those services. But in the days of this sort of siloed world of the agency,
and by the way, it was a nightmare for developers that had a drug device combination.
I mean, it was like gerrymandered lines of what was included in one center versus another center
based on infighting. And, you know, people had.
served long terms there. You know, they'd served terms like President Mugabe of Zimbabwe
who'd been there, you know, forever. These people just were there forever, right? It was just
their way. And any time there was an opening and leadership, 19 times out of 20, it went to an
internal candidate. So you didn't have a lot of fresh new ideas. We have a lot of,
a lot of fresh scientists coming in there. I mentioned the 1,000 new scientists where we're
onboarding right now, 450 of them, 50 of them already just started.
But I've met a guy who his job was to change the ink cartridge on a fax machine, on one fax machine.
Like, healthcare has single-handedly kept the fax industry alive.
Wow.
The guy's job was the ink guy on the fact machine?
Yeah, just to swap out the ink cartridge.
The fact machine, ink machine.
Yeah.
There's a lot of that.
There's a lot of that.
Well, let's shift over to food.
Maybe I'll just give you a moment to share what you changed in the food pyramid.
in the announcement last week, why you made those changes and why weren't they made before?
Yeah, so we have had decades of medical dogma and corruption putting together food pyramids that make no sense.
People can tell, I mean, the open secret was that they make no sense, they're scientifically inaccurate,
and they were oftentimes curated by the food industry or the food industry's influence on academia.
Nutrition science may be one of the most corrupted fields in all of science.
And it gave us the dogma that we had to focus on saturated fat and just eradicating natural healthy fats from the U.S. food supply,
ignoring that you replace fats with refined carbohydrates, which are not healthy.
And we have this carbohydrate heavy diet now for American children.
And guess what?
38% of kids have pre-diabetes or diabetes is that a surprise the rise has paralleled the shift from
saturated fat or regular food to pumping refined carbohydrates and added sugar.
60% of the calories of a child in America today are refined carbohydrates.
No one has talked about it.
It's been in a blind spot as the medical establishment has had this myopic focus on the boogeyman
of saturated fat. And so we had a food pyramid that was entirely backwards. And so we flipped it
upside down using good science, talking about a previously ignored area of nutrition, and that is the
importance of protein. We've been getting about half the protein that we need. The protein levels
and the previous dietary guidance was really just to prevent withering away. We want our American kids to
thrive. And look at the status of kids today. Low in protein, muscle wasting weakness,
underperforming in school, high and refined carbohydrates and added sugar, giving them that kind
of sugar sort of coma, food coma, after a refined carbohydrate breakfast. Again, we hit him hard
in the afternoon. They get very little or no natural light exposure.
They're told to sit at a desk still for seven hours a day.
They can't do it.
And what do we do?
Tragically, we have drugged our nation's kids at scale.
It's wrong.
It needs to stop.
We have to reexamine the root causes.
And so flipping this food pyramid upside down,
focusing on protein is the first step.
And so I'm very proud of what we were able to do.
What have you uncovered now that you've been inside the organization,
and you can see paperwork related to the legacy of how the old food pyramid was constructed
and maintained for so long about the motivations, who was involved in setting that food pyramid.
When you mentioned the corruption of nutrition science, help us understand the root of that.
So I wrote a book just before coming into office where I had a chance to do a deep dive
and do some investigative journalism, if you will, to learn how this dogma of what to eat
got we got so wrong. And I think it was a lot of group think, just like we saw with opioids
are not addictive. Medical establishment got that wrong for 15 years. Young kids should avoid peanut
butter until they turn three. We got that wrong for 16 years, tragically wrong, igniting the
modern-day peanut allergy epidemic because peanut butter exposure in infancy reduced
There's something called immune tolerance, right?
And it reduces the risk of peanut allergies late.
We're the only country in the world that has high rates of peanut allergies,
along with UK and a few other European countries that fell for our dogma-based recommendation
to avoid peanut butter till the kid turns three.
And so we got that 180 degrees wrong.
And so there are dogmas in the medical field that take on a life of their own,
and you're not allowed to question them.
And we saw a little bit of it during COVID.
of it during COVID, if you recognize natural immunity and may not need to be fired from your job
because you have circulating antibodies to COVID, but they were just antibodies that the government
did not recognize. This dogma can take on a life of its own. And so we're trying to get back
to gold standard objective science. It is crazy that the fundamental premise of science is you
ask a question and then you test whether there's one answer or another. And the idea that you
you can't ask questions indicates that it's not science from my point of view.
All standards should be challengeable.
You should be able to ask the questions.
And fundamentally, if they hold truth or they hold ground, then great, let's maintain them.
And if they don't, we should be able to change.
And then they use the word science.
Historically, the word science has been then used to justify not testing something.
That's right.
It's crazy to me.
What are the roles that food companies have played?
What are the roles that folks that
might have an economic incentive in keeping the food pyramid as it was played historically in
this. And is that permanently change at this point, or is it changed while this administration
is here and it's going to change again next cycle? Help us understand a little bit about, you know,
the role that industry has in influencing some of this regulatory process. Well, I think the industry
did what the medical field told them to do. And that is,
to address the risk of mass starvation and deal with food insecurity and that calories in
equals calories out regardless of where those calories come from.
That was the dogma and sort of the mandate to the food industry.
So they did what they were told to do.
And so they moved to refined carbohydrates.
They stripped the grains of fiber to mass produce them.
They would even chop them up, which made them increase your glycemic index.
That is, it basically functioned like.
sugar so you have cereals, breads, pastas, functioning like sugar and so we ushered in a
generation of kids and you and I were the first general part of this, the first
generation in human history with massive insulin spikes day to day in our
normal everyday life. We've never seen insulin spikes to that degree and of
course that drives something called insulin resistance that is that the organs in
your body that do important functions are trying to
to block out all this extra glucose and so they kind of change the configuration of the insulin
receptor to just try to resist all the sugar coming in and it is at the root of almost every
chronic disease insulin resistance general body inflammation and we never talk about these things
never so we talked about them front and center in our new guidance the types of grains matter
it's not calories n equals calories out it's not you can have this
You can have this, if you sit on a treadmill for this amount of minutes, we've got to talk
about the soil that food comes from and the farming techniques that animal products come from,
and the cleanliness and chemical-free waters that seafood comes from, and the importance of protein,
and the value of whole grains and what we call real food.
And so the website is realfood.gov.
My only criticism is the lack of vegetarian protein in the top of the pyramid where as a vegetarian
I eat eggs and dairy.
It could use a few more nuts and beans up top.
Yes, yes, it could.
I'll talk to Joe Gabbya about it.
It could.
No, it could.
I think the New York Times had a connobsion about the blueberries.
The blueberries.
I think it was disproportionately,
disturbingly large.
Sturbingly large blueberries?
That was the criticism?
Okay.
That wasn't one that bothered me.
Let's talk about the adult population.
I think 40 to 60%,
depending on how you measure it or obese,
clinically obese in this country.
and these incretin memetics, GLP1 drugs and others,
have really taken the market by storm,
taken our population by storm.
So I realize that much of this is in response
to an obesity epidemic that we're facing in this country.
But it turns out that these incritin memetics
may actually have other systemic benefits,
and they're now, I think there's 60 indications
that they're being tested against,
including kidney, neurological, cardiac.
I mean, there seems to be a lot of benefit
potentially in using them for other disease
indications. Can you speak a little bit about your view on where this market, where this class of
therapeutics is headed? Is this something that some people have estimated our 60% of Americans are
going to be on? And if it is the case, does that mean we failed with our food system?
Well, first of all, we have failed with our food system. Look at the fact that 40% of American kids
have a chronic disease. Between the lines in the medical textbooks and medical school was kind of a
blaming of children for not having the discipline. And it's not a willpower problem. This is highly
addictive, chemicalized foods that are ultra-processed that are put in front of kids, and they want
more. And you put these vibrant colors in them from the petroleum-based eyes. And so this is something
adults have done to kids. And so I think that we have failed. We've given people the wrong
information, the calories in equals calories out, this demonization of fat and all that stuff we
talked about. GLP ones are mimicking a natural hormone in the body. And so when you get a
supplementation of that, it's doing the job of increasing satiety, slowing down GI motility,
and it has a profound impact on a number of conditions because you are also reducing insulin
resistance and general body inflammation. And so that's why we're seeing so many other benefits,
plus you feel better. When you feel better, you're going to have benefits you don't even,
we haven't even appreciated yet because there's an incredible value, this sort of positive thinking.
We've seen it in a breast, in a lung cancer study from Mass General. They randomized people
to palliative support versus chemotherapy and the palliative support did better, even though the chemo drug
is more effective than standard of care.
So you see this incredible value to sort of positive thinking,
and maybe that's one of the reasons we're seeing reductions in addiction.
Maybe we're seeing cardiac benefits.
So we'll see.
I mean, we're, as a regulator, we're a referee,
and we want to see products come to market quickly and safely.
But I think we're at a pretty interesting time.
Yeah.
Just to go back on the China point,
because we did talk about competitiveness with respect to speed.
But the other piece I wanted to address was funding of research.
So that biotechnology council I mentioned recommended a $15 billion kind of rushed investment in research.
When I meet with scientists, there's a view that the Trump administration is anti-science
is defunding a lot of research institutions in the United States that are going to save people's lives and develop amazing cures.
why are they doing this?
There's this council that recommends that even in the face of China, they're putting out
tremendous funding to support research scientists coming up with those next set of molecules
or therapeutic modalities that are going to change lives and improve lives.
Maybe you can comment a little bit on, are we funding through the government enough scientific
research?
What's the right steady state for us?
And how do we address the points about the Trump administration being anti-science?
Yeah, well, look, we live in partisan times now where people get spun up in there in sort of a toxic polarization.
And the truth is, if we want to know the facts, is that in the Trump administration, we have not cut $1 of NIH funding.
We have not cut $1 to the general Medicaid budget, that is the overall Medicaid fund.
And the proposal for the future is to increase Medicaid by $200 billion.
So you hear all the time, oh, Trump cut Medicaid.
Trump cut the NIH. No, what we want to see is reallocating money at the NIH from just chemotherapy
and proton beam therapy work to study food as medicine and school lunch programs and the microbiome
and gut health. We've got to start talking about school lunch programs, not just putting every six-year-old
on Ozempic. We've got to talk about the quality of sleep as it is a cause of high blood pressure
when you sleep poorly instead of just throwing people on anti-hypertensive medications.
We've got to talk about environmental exposures that cause cancer, not just the chemo to treat it.
And so we want to see funding go to root causes of diseases.
And that is something that has been, unfortunately, in a blind spot because the culture of the NIH
is the culture of Francis Collins and Tony Fauci and the group for the last 50 years
that, and I'm going to oversimplify it, the gene is responsible for our health problems,
and the gene can solve all of our health problems. Well, look, I believe in gene therapy,
and we're doing amazing stuff with that. But where's the research on why one in six girls
today will develop an autoimmune disease? What's triggering that antibody response? What of the many
exposures in the life of a child is causing their bodies to be triggered? These studies can be done.
that difficult to model the antibody that's involved in type 1 diabetes or MS and exposures in the
environment to see if it is triggering that same configuration that the antibody binds to.
But no one's been interested in it because everything has been about coming up with a, you know,
treatment when we have to look at causes.
Right.
And the scientists on the ground see their funding go away.
They complain, they get media attention.
There's a lot of amplification of those stories.
So is that not the fundamental truth because the money is being reallocated to other scientists
and other research?
Correct.
Correct. So 14% of NIH funding went to DEI research.
14% of NIH grants went to DEI research.
And NIH grants are about 40 billion a year.
Does that sound?
It's a little over 20 billion in terms of grants that go out the door.
but about 47 billion for the entire NIH budget because they run their own hospital and clinical center and others.
So if you think of, and by the way, I'm all for anything that reduces health disparities and increases access,
but these grants were not doing it. It was just describing health disparities.
Well, we already know their health disparities.
Simply describing them with another 50 studies in JAMA does not help people who,
suffering from these health disparities. So we've seen money shifted to root causes and areas
of research that we need to study that we've not studied. At the FDA, we have put a big emphasis
on the value of hormone replacement therapy for postmenopausal women, something the NIH demonized
for the last 22 years saying that women shouldn't take it because it causes cancer.
When we came in, the NIH was a mess. Almost all the money was going to
to genetic research, which then becomes the priority
of every academic institution.
They're not studying causes and food and the microbiome
and cutting edge areas of science.
And they just had this myopic focus on one area.
It's an important area, but it's one area.
They were funding the Wuhan lab to get back coronaviruses
and insert a fur and cleavage site so it could infect humans.
What are you doing?
It's like a bunch of mad scientists.
And 14% of grants were going to de-eatres.
to DEI. So the NIH when we came in was a mess. And under President Trump, it is massively
being reformed. And Jay Batichari is doing a great job. Okay, let's shift over to vaccines. Our
wives had kids around the same time. Hope yours is doing well. Great. He's great. Thanks for asking.
Yeah. And we talked about the Hep B vaccine, which we declined on the day he was born.
because I started going very deep on what's the origin of the Hep B vaccine the day that the child is born?
Why is this being given to them?
We have no Heppe exposure in our household.
We don't need it.
It doesn't protect anyone else.
What are we doing this for?
You end up going down these rabbit holes and a lot of, again, what you mentioned earlier, you take for dogma and you recognize, wait a second, there may be some unfounded principles at play here.
I should not be doing this.
And we make a difficult decision against the time.
tied and the recommendations and suddenly you're in the social conflict with people around you.
Right.
And it was very hard.
You guys recently made some big changes to the vaccine schedule.
I'd love to hear a little bit about how those changes were made.
What were the big changes?
And then, you know, kind of what got us to this point where when you look at the data,
you're like, wait a second.
That may not make as much sense.
Yeah.
I'm just laughing as you talk, Dave, because you do, you know, you just ask some good questions.
Like, does my newborn in the first hour of life need to be injected with a hepatitis B vaccine when the mom is hep B negative?
And within a matter of weeks of having broader conversations, you feel like you're a fugitive of the law.
Like you've done something, you know, terribly wrong for choosing not to vaccinate.
We went through the same thing.
And, you know, being a part of having a kid is so special.
You know, we were talking about that.
So yeah, we just went through this.
Our son was born about six months ago, and, you know, the, we were offered the hepatitis B shot.
Now maybe they figured out who I was and didn't push it as hard as some of my friends have
had it pushed on them, and we declined.
You're preventing with hepatitis B an infection that is a sexually transmitted infection
or can be get it from a blood-borne pathogen exposure.
So that's not going to happen until they're a teenager, at least or further down the road.
But when you ask the question, immediately you get this sort of anti-vax label or you have to qualify.
I'm not an anti-vaxxer, but I'm asking this.
What's going on here?
This sort of McCarthyism around this schedule, which, by the way, the United States vaccine schedule
was an international outlier with 72 doses recommended between.
the ages of zero and 18.
So President Trump asked us to review the international landscape
of vaccine recommendations.
And we looked at 20 other developed countries and found that not only are we
the international ally in how high the number of doses we recommend is,
but that there's a consensus of a group of core essential vaccines.
And we wanted to put that in front of the American people to say,
look, all vaccines are still recommended by the CDC.
But here are a list of core essential vaccines.
So we gave them a list that constitutes about 38 doses
from age 0 to 18.
And the idea is to increase vaccination rates
among children that have been dropping
because of a loss in public trust by saying,
here's a hierarchy of what we believe to be
a list of core essential vaccines.
I don't want to see someone because a doctor's
pushing the sixth COVID booster in a young, healthy 12
year old girl. I don't want to see the mom say, well, I'm not going to get the measles shot for my next
child because I am, something's not right about this. 38 is better than zero. You can still get them all.
They're all paid for it. But we have a hard time in the medical culture. And this is part of the sort
of the sociology of medicine, meeting people where they're at. For example, as a cancer surgeon,
I would see women tell me they don't want to get a mammogram.
I disagree.
I think they're safe.
But a woman may have be concerned about the radiation, the discomfort, the inconvenience.
40% of women who are candidates for a mammogram are not getting a mammogram in the United States today,
showing you the massive disconnect between the medical field and where people are at.
Now, you know what we should be doing is we should tell those 40% of women,
how about an ultrasound?
It picks up 90 to 95% of the lesions that a mammogram would pick up.
But doctors don't recommend an ultrasound because you're violating the gold standard
and there's liability and you know, and you're practicing substandard care.
And women may tell other women that they could also get an ultrasound and we don't want women getting an ultrasound instead of...
The paternalism that results in this disconnect is hurting people.
in the United States today.
And so with identifying the list of core essential vaccines,
we are trying to meet people where they are at
to see more vaccinations,
because childhood vaccines have declined
over the last four years of COVID,
because people have lost trust in the dogma
of the cloth masks for toddlers
and vaccine boosters in perpetuity,
and you have to fire a teacher.
If she already had COVID, ignore natural immunity,
they have to be fired from their job.
That absolutism has caused tremendous damage and we're trying to rebuild public trust.
What's frustrating to me to observe is there are now states like California in the California
DPA that are saying we're going to set our own vaccine schedule.
We're not going to listen to the FDA to the HHS anymore because they don't know what
they're doing because they're Trump admin.
They're not doctors.
They're not scientists.
Clearly, this is all political.
And is there a process of engagement that you and your organization go through?
to try and bring some of these other folks along with you,
because I think the point you just made
can't be a point that they can fundamentally disagree with.
What is the process by which we can break the political rancor
around things like vaccines
and just take a very clear-cut scientific approach
and get people aligned around this?
Do you do engagement on this stuff?
I don't, look, I think it's sad.
We have this toxic polarization that's crept in.
It's in society, but it's now crept into medicine.
And it's a lot of character attacks.
I mean, it was put together by doctors with impeccable credentials.
Tracy Beth Hogue, MD PhD, phenomenal epidemiologist who is deep on the science on this stuff.
You know, all of us, J. Badacharya, MD PhD, Mehmet Oz, vice chair of surgery at Columbia University.
I mean, these impeccable credentials, 400 scientific publications.
I've published 350 scientific peer-reviewed publications in my career at the Harvard School of Public Health at Georgetown at Johns Hopkins on the faculty, tenured National Academy of Medicine.
It didn't matter all the impeccable credentials you can put in front of people.
There's this sense of we just have to say the contrarian thing to whatever they are saying because of this sort of mantra of all vaccines are good regardless.
And you cannot have an honest conversation.
I talked to doctors and they've never heard of a vaccine they didn't love.
Anthrax vaccine was a disaster.
H3N3 killed people.
It was a disaster taken off the market.
A rotavirus vaccine in 1999 taken off the market because our kids were dying from interception.
Roto virus is not in our core essential vaccine schedule in the United States.
Overseas, it's a little different.
But in what we put out, it's not in there.
after mass vaccination with rotavirus, the number of deaths per year went from three to 1.6,
or rounded up, let's say, two, went from three to two with mass vaccination.
And the vaccine that was used up until 1999 was taken off the market for safety concerns.
So when you have a parent ask a question about the necessity or we cannot respond with absolutism,
American medicine needs to show some humility.
When I had a patient asked me a question, I didn't know.
The right answer, I don't know.
Maybe I'll look into that.
Maybe one of my colleagues knows during COVID,
the right answer many times was we don't know.
Do you find that there's a path forward?
I hope so.
I mean, we're hoping to restore gold standard science
and just talk objectively about it.
We've had universities cancel, crush, sensor, railroad doctors that pose different ideas about things.
And I'm not talking about the political hot button issues.
I'm talking about the fact that ulcers were not caused by stress.
They were caused by a bacteria called H. pylori.
Well, that guy was railroaded.
His research was rejected from the national meetings.
And then he gets the Nobel Prize because he ends up being correct.
And so it's not good for science.
Most great scientists start out as heretics.
Yes, to be clear, by the way.
That's right.
So, Marty, one of the other big challenges that we talk a lot about in this country is the cost of drugs.
Healthcare today costs roughly 15% of our GDP.
That's an insane statistic.
And it is rising year after year in the United States.
And it's such a complex issue.
By some measurements, though, the price of drugs in the United States is almost three times.
what it is outside the United States.
So I'd love to hear a little bit about the specific role of pricing drugs.
What sort of actions have you guys taken and can you take to help bring down the price of drugs
for patients, for care providers, for insurance companies, and ultimately for the economy?
It's been the Great American rip-off.
You could buy a GLP1 drug for $1,300 in the United States and go to London.
It sells for $88, where you go to Germany or France and buy any of the drug.
that cost a lot of money in the United States
and they're half a third or a quarter of the price.
And so President Trump has given us a clear charge
and he says, look, we're the largest purchasers of drugs,
we want the best price in the developed world.
It's called Most Favored Nation Status Pricing.
And thanks to Dr. Oz and Chris Klomp and others at CMS,
we did our part at the FDA to be a part of this.
We've gotten drug companies to the table
and we've got them to agree to most favored nation status
price. That's going to radically lower the price of drugs. With the GLP1 example, for example,
it's going to come down to $149 for the first three months. Other countries are going to pay more.
We have been financing 60% of the R&D cost to pharma companies. Other countries need to pay their
fair share. And when it comes to this president, it would be it NATO membership fees or whatever,
he wants to see other countries paying their fair share. And so we're getting that delivered.
Another big way in which we are going to lower drug prices is by cutting the red tape at the FDA for biologic drugs.
So most 51% of the, so let me back up for a second.
The fastest area of health care spending growth is drug price spending growth.
And the fastest area of drug price spending growth are a class of medications called biologics,
which means you need a cell line to manufacture them.
And so these are typically that $60,000, $100,000, $150,000 medications.
They have generic versions called biosimilars.
But the FDA red tape to get a biosimilar approved has been so long and arduous.
It takes five to eight years and $300 million or so.
We have changed the requirements so that we use the same principles we use for small molecules,
if you are structurally the same as a small molecule branded drug, we're going to approve you with some other stipulations.
And so we are reducing the cost of R&D of biosimilars by $100 million plus dollars, and we are shortening the time frame from five to eight years to two and a half years or more.
And so we're going to see a whole new class of biosimilars come out in this administration that are going to finally compete with the biologics.
Now, Humera is one of the most famous biologics.
It took years after that patent market exclusivity for a biosimilar to come out.
And when one did come out, you didn't see the price of Humera come down that much, almost
sort of an implied price collusion.
We need a lot of biosimilars to come out, and we're going to see the floodgates open up
on biosimilars.
And then final point, why are a lot of drugs requiring a prescription in the United States?
are we worried about somebody overdosing on anti-nausea medication or somebody picking up a prostate
medication without a prescription? We've got, this is the paternalism in medicine again coming
out, the same paternalism that blocked women from having home pregnancy tests because, you know,
women can't handle that information. They have to come in and we have to share it with them.
It's this paternalism you see, and by the way, it happened again with COVID testing.
We saw it, well, home COVID testing, we fought this battle.
We wanted home COVID testing and the establishment was like, no, no, we have to tell them.
They can't have this information.
Why are drugs not over the counter?
And we're going to, so we're going to get more drugs over the counter.
And let me tell you why that lowers drug prices.
Because when a drug is on the shelf in a store, there's a price underneath of it.
And there is something magical with competition.
and people who shop, even if a small segment of the consumer market is shopping on price,
it keeps prices in check for everybody.
And so you will enable price transparency, and you will bypass the crazy money games of
PBMs, pharmacy benefit managers.
When you pick up something behind the counter, they ring you up.
You have no idea the shell game that's going on behind the scenes.
With your employers getting ripped off and your PBM is making money on.
this and the broker who sold the PBM to the employer group could be making $6.50
on every prescription set.
For what?
For the PBM just to tell you what your co-pay is going to be and set the co-pays?
All of those money games disappear with the disinfectant of sunlight and a price on the shelf.
We want to see a mass transition to more non-prescription drugs.
We have new leadership that I brought in at the Office of Non-Perscription Drugs.
drugs at the FDA. We want to see companies request to be non-prescription and it's going to have
very simple criteria. If your drug does not have abuse potential, if your drug is safe, if your
drug does not require laboratory testing, which doctors, you know, we often need to check
your liver function tests, it does not need to be closely tracked, it should be able to be over
the counter. If you're not going to use the drug in some meth lab to make some
dangerous street drug. If you meet those basic criteria, the drug should be non-prescription.
Think about the number of useless ER visits out there. The whole medical industrial complex,
cha-ching every time you need a refill. Like I got pink eye from my kids and it was such a headache
to get the drops to get my pink eye to go away. Like, I mean, I can't, I spent so much money
just getting a few drops of antibiotics to put in my eye. But if I were able to buy that medicine,
the antibiotic drops over the counter and I could just pick it up the shelf.
How do I get my insurance to pay for it?
How does that process work?
Just explain to the everyday consumer what that's going to look like.
So we need insurance companies to modernize how they reimburse for medications.
And we're having these conversations internally as well.
Because they had this old construct of here's our reimbursement scheme for prescription drugs
and here's our reimbursement scheme for non-prescription drugs.
Well, they've got to modernize.
We've got to come up to the 21st century.
And remember, the insurance companies own the PBMs a lot of times.
So we've got to be honest.
We've got to all come to the table.
Presidents bringing them all to the table and have a very frank conversation and even successful.
I've got to imagine at 15% of GDP, this is a giant ship you're trying to reset and redirect.
Can you get this done in this administration?
Can you make the changes of moving many of these medications over the counter and get them
to fit under insurance reimbursement plans?
It's a massive priority this year for me.
One of my big 2026 goals is that we want to see more drugs move to non-prescription.
If writing a prescription by a physician like myself is supposed to regulate and serve
as a way to administer drugs judiciously, then history would show we failed.
Opioids and Oxycontin 60% of antibiotics prescribed in the United States are unnecessary.
That study has been done over and over again, 10 different ways.
Most antibiotics people take, they should not be prescribed.
So we have to talk about educating people, trusting people, and get away from the paternalistic
model of medicine.
Yeah.
Well, I mean, look, if you guys get it done, I think it'll be a profound change for America
for the price of healthcare, which I think is really challenging a lot of people day to day.
One of the other things that's been a little bit of a hot button is pharmaceutical advertising.
on TV. Some people have claimed that the pharmaceutical companies have significant influence over
media because of the money they spend. They're one of the biggest spenders. I spoke to a pharmaceutical
CEO about advertising. He said the ROI is incredible. We've never been able to influence media,
so it doesn't make a difference to us in that sense. But fundamentally, the reason we do it is because
it gets awareness out there for therapies that patients might not know are available to them.
And he said this interesting statistic to me, which is that half of U.S. physicians never see a
to learn about new drugs that are coming to market.
And two-thirds of physicians report never reading a journal article or going to a conference in the past year.
So they're not aware of some of the new medicines that have come to market or coming to market.
You've been a physician.
You are a physician.
You understand how this might go.
You're busy.
You're treating patients.
You have a lot going on.
Maybe you're not up to speed on the newest medicines coming to market.
What's the administration?
What's your view on advertising, pharmaceutical advertising on TV?
Where are things headed?
Well, raising awareness, as your friend mentioned, is a good thing.
But creating a misleading impression and creating a massive storm of demand where patients come knocking on our door, insisting and begging that they get certain medications that are not indicated for them is a problem.
And the drugs that they are advertising nonstop on TV and they're always singing and dancing, right?
Always singing and dancing or marching from some fake town to another.
I don't know where they're going, but it's always this sort of idea that life is great once you take this medication.
It's the biologics that they're advertising. And because they charge so much on the biologics,
and look, they do cost a lot more to make. But because some of these biologics have been so expensive,
that's where they're seeing this big ROI. So we're lowering drug prices,
and I think that's going to affect whether or not it's worth it for them to advertise,
We have a duty at the FDA to enforce two regulations that were not enforced in the Biden administration.
And that is that ads cannot create a misleading impression and that there has to be a, quote, unquote, fair balance of information.
There's also a loophole called the adequate provision loophole, which says you don't have to list all the risks or side effects.
You can put it somewhere else, like on a website.
We're closing that loop.
We're changing the regulation to close that loop.
The Biden folks in the year before I came to the FDA sent out zero enforcement letters,
a department of about 35 people in charge of sending out enforcement letters, sent out zero
enforcement letters.
I sent out 1,500 enforcement letters, including over 100 cease and desist letters for ads
that were creating a misleading impression, including online pharmacies that are advertising
drugs without the same side effects that pharma companies list when they do the ads.
And so we are cracking down on it. We want free speech, but we also want fair speech. And this is
part of our jurisdiction. So we are taking this very seriously. I personally love to see
pharmaceutical companies spend that 20 to 25 percent of their money that they spend on marketing,
take some of that and use it to lower drug prices for everyday Americans.
Great. Well, it sounds like there's some balance and change that's required.
One of the other things that we talk a lot about in Silicon Valley is this shift in AI and using
AI to diagnose your condition. So many stories have come out where people upload their lab data
or an MRI image and they're getting readouts that they weren't getting from the doctor
or more accurate readouts or they're able to find care that they weren't finding through
the traditional physician process.
What's this administration's view on these AI tools?
Are they a supplement, a replacement?
And then how do we allow them to proliferate if they're good?
And do they need to be regulated?
Or are we going to end up regulating these AI doctors, these AI medical systems?
Well, first of all, AI is producing information at a rate that no one can keep up with.
And so if we use the traditional regulatory mindset to say we have to make sure the information is accurate,
then you wouldn't be able to do a Google search because you're going to get a hit that's going to give you something that's not accurate.
And so what are we doing? What road are we going down? We can't outrun this lion. We have to use common sense and demarcate information that you're getting from AI that automatically triggers some health intervention that is sort of automated AI.
And so last week at the Consumer Electronics Show, I outlined new guidances on AI decision support and wearable.
and it creates a clear consumer lane.
But if you're making medical claims of a medical grade blank,
then that's something we're going to want to take a look at,
and that's something you're going to want the FDA seal about.
So it creates predictability,
because developers tell me all the time they just want predictability from the FDA.
Markets want predictability, developers want predictability,
and investors want predictability.
So wearables, meaning heart rate, blood pressure,
that's right, glucose monitors, those sorts of things.
those sorts of things, get deregulated, more accessible, lower price, and so on?
That's right. They're going to be deregulated, so you can give those results of any physiologic
parameter. But if you say that it's a quote-unquote medical-grade blood pressure, then we are going
to want to see the data to make sure that it's validated with the gold standard blood pressure
readings. We don't want people redosing their blood pressure medications on something that claims
to be medical grade when it is not medical grade.
Okay. One other area I've spent some time in in my career is in alternative proteins.
And this is something that your agency regulates. So making animal proteins, eggs and cheese and
milk and so on using bacterial or yeast cells rather than making them from the animal.
You get the same protein. You just use a different mechanism of making that protein or cellular
meat where they're actually growing the chicken breast or growing the beef.
there's historically been a system called grass
or generally recognized as safe
that a lot of the companies have relied on
as they've developed these techniques and these protocols.
You've made a few changes.
Maybe you can kind of highlight the balance
between innovation because the benefit of these systems,
lower cost, less energy,
and you take the animal out less cruelty.
There's an ethical driver for some of us.
Yes.
But I'd love to hear the view on balancing those benefits
against the risks to consumer health.
And there's an incredible amount of lobbying pressure from ranchers and animal agriculture
against these systems that I'm assuming is starting to kind of make its way into D.C.
We've seen it make its way into states where they've outright banned cellular meat in some
states.
So I'd love to hear your view on this kind of alternative protein market and the changes you've
made in grass and looking out for consumers against the benefits.
You're making me hungry because I love eggs.
And I didn't get my egg breakfast this morning because we're out here at a bunch of meetings.
I'll get you some eggs afterwards.
Great.
And not egg white only.
I do not believe in egg white only.
I mean, that is, what are we doing?
Egg white only eggs?
I mean, that's sort of the ultimate epitome of the old dogma.
And by the way, my uncle, he came to the United States.
He had eaten eggs every morning and he loved eggs.
It was his livelihood is the morning eggs.
And he came to the United States in his 30s and his doctor said, no eggs, you know, found out he was eating eggs and just, you know, wagged the finger and, you know, stop.
And so for 30-some years, he had this miserable life without eggs until we finally got to him and said, it's okay.
Two eggs in the morning is okay.
It's a good source of protein.
Don't worry about the saturated fat.
He's now 95 years old, I believe, in Florida.
And a happy man.
Happy man eating his eggs in the morning.
I'm a two to three egg a morning guy as well.
Oh, you are?
Okay, it's a great source of protein, yeah.
So on grass.
So grass, for those who may not know, is a way in which companies have created chemicals
or brought in chemicals from the environment, added it to food, and they could self-declare them as safe.
And so it's kind of a unique thing in the United States, and it was started with good intention
so that the FDA wouldn't regulate, you know, salt and butter.
You know, what are we doing regulating salt?
I'm sure some people want me, may want to, but we're not going to regulate salt.
So grass was created for those sort of things like salt.
But then over time, it got abused.
So all of these engineered chemicals would just get a free pass.
And we've said, look at where we are today.
You turn over the packaging of some of these ultra-processed foods, and there's 40 ingredients.
Nobody knows what they are.
And in Europe, they have.
have basic principles of introducing chemicals. Basically, it's sort of, if you will, guilty until
proven innocent. That is, you have to demonstrate safety to be introduced. In the United States,
we have this, you know, innocent until proven guilty. So we have basically said we have a thousand
chemicals plus in the U.S. food supply that are not allowed in other food supplies. Fruit Loops
was making cereal for Canada where the petroleum-based dies were banned and a different
fruit loops for the United States for American kids. And so we've said we have to close the loop
along grass. We started the regulatory process to do that. And then we have to think about creatively
those situations you mentioned where there may be ways to get more amino acids in some of these
foods. And we know that kids are low in amino acids and protein because of this myopic focus on
fat as the boogeyman, we have not gotten a protein that we need. And part of that was also flawed
studies approximating how much protein your body needed that used urea nitrogen levels. That massively
underestimated the amount of protein metabolism in your body. And every food has different levels
of protein bioavailability and amino acid bioavailability. So that's why you said you're vegetarian,
you have to think a little differently about the protein requirements. So all fun top.
But the cellular meat industry you don't think is doomed.
There's a potential for the industry and it's going to continue to evolve.
We've seen under my time at FDA, we've seen new cellular food products come, not just meat, but seafood.
And it happens at the state level.
And the FDA actually does not have jurisdiction over what somebody creates, but we do ask for a registration in a sense to be in the loop.
Okay.
So what is causing autism in the United States?
Yeah.
There was a conference a few weeks ago.
you and Secretary Kennedy talked about Luca Vorin as a new line of treatment for autism patients.
But some people have since debated the merits of the data.
Are we seeing rising autism rates in the United States?
And what are the core drivers?
What have you learned?
And is this an ongoing process?
Well, there is more diagnoses for sure.
But one in 12 boys in California now being diagnosed with autism.
I mean, you didn't see that two generations ago.
You didn't see the repetitive ticks and the self-harm and the, you didn't see that.
You still don't see people in their 60s and 70s with those symptoms at the rates that you do in young kids today.
So something's going on for sure.
Now, what's causing it?
I don't know, but there's some interesting hypotheses.
One is that for some kids, it may be an autoimmune phenomenon triggered by something,
where the antibodies are binding to the folate receptors, preventing folate.
from entering the blood-brain barrier.
Folate's necessary for neural development.
And so some doctors report, and they're, I mean,
these are experts in the field, I mean,
studying this their whole lives and see a lot of patients.
They have observed that if you give lukevoren as an example,
which bypasses the blocked receptor,
allowing methylated folate to get into the blood brain barrier,
they have seen clinical improvement.
There's one study that's looked at the microbiome,
which we now know produces a lot of,
a lot of molecules involved in brain health. 90% of your body is serotonin, which is involved
in mood, is made by your gut. And we're just recognizing this giant frontier of the microbiome.
And so when we, in the modern world, we just torture the microbiome. I mean, so many things.
Some things are necessary, like C-sections, not good for the microbiome.
infant formula instead of breast milk, not good for the microbiome.
Antibiotics used like candy. The average two-year-old has already received
over 2.5 courses of antibiotics. It's carpet bombing your microbiome in certain
places. And what results is bacterial overgrowth, less biodiversity,
and you have more inflammation later in life. And when you have inflammation
of the gut, the most, the most painful thing in medicine is when a tubular
structure stretches. Kidney stone, supposedly is the most painful thing. I've never had one
patient say it is. It's not the stone scraping along the lumen. It is the blockage causing
distension, proximally stretching the urturt. That's what hurts. Gallbladder pain stretching the
gallbladder, that's what hurts like crazy. And the GI tract with low levels of inflammation
is irritating that lumen and also causing
this sort of discomfort at a low level. And for a kid, it may manifest as feeling sad or depressed.
And so we give kids all these chemicals and ultra-processed foods. We alter their microbiome
and we change the production of what comes out of the microbiome cells normally. That is, certain
vitamins, hormone regulation, serotonin. And what are we doing? We're ignoring this physical
illogic cause and we're drugging our nation's kids at scale.
So we've got to talk about the value of the microbiome and I would not be surprised if we
had the research on that instead of just the DEI stuff we talked about and study the microbiome
the same way we're funding the Wuhan lab to study coronavirus, you know, manipulation.
I think we could finally understand this great frontier of medicine that may be involved in autism.
One study has found that if you give a certain protease, it's a randomized trial.
I couldn't believe when I saw it because, and you know, sometimes the studies are not reproducible
in JAMA, our most widely circulated medical journal, a randomized trial giving a protease
to kids with autism and noticing an improvement.
Now again, it needs to be replicated, I don't know if it's real, but maybe there's something
to the microbiome.
So I don't know what causes autism, but we have some clues, and this is something worth studying,
not just is there a genetic cure for autism.
Yeah.
And the underlying environmental contributors, there's just so much going on that's different
in our environment and our food system that are also being addressed that over time hopefully
will result in maybe less of the general health effects caused by, call it an adverse environment.
Yeah.
The number of proteins that we ingest that are denatured in some way, the number of chemicals
or molecules that do not appear in nature that go down the GI tract.
What's happening is you're getting an inflammatory response, but it's not a sudden acute
inflammatory response.
It's a low-grade response.
And it may be causing general body inflammation.
And the one thing I wish I would have learned in medical school is that most chronic diseases
are from general body inflammation and insulin resistance.
disease, for example, most common cause of death in the United States. We thought it was just saturated
fat. Three large studies failed to show that association. The Minnesota heart study was supposed to be
the end-all randomized trial in the 1960s. It showed the opposite of what they thought. The low-fat
diet group, these are 9,000 Minnesotans randomized. Low-fat group had more heart attacks, not less.
They suppressed the results for 16 years when Gary Taubbs asked
the senior author before he died, why didn't you publish this for 16 years? He said,
we just, the results just didn't turn out the way we expected. Well, other large studies failed
to find this clear association between saturated fat. We're talking about normal saturated
fat intake, not massive overdosing, normal saturated fat and heart disease. And so,
so anyway, so there are these things that we have to reevaluate. Okay, last question. What's
most exciting to you in the frontiers of science in human health?
You know, we at the FDA try to be referees. So we see different technologies competing.
For example, sickle cell disease. There are monoclonal antibody treatments and there are gene
therapy treatments. Now, we tend to get excited about one or another, but the reality is we don't
know which horse is going to win that race. And so we want to be the referees. I would like to see
in the Trump administration during our term,
a cure for type 1 diabetes
or some meaningful treatment for type 1 diabetes,
a powerful treatment for ALS,
treatments for certain kinds of cancer
where we've seen now PD1 blockers and KRAS inhibitors
melt the tumors away.
So you don't need surgery or chemo.
You talk about a health reform?
That's more powerful than a lot of the health reform ideas
we have out there.
You don't need surgery or chemo or radiation.
I mean, think about the reduction in expenditures.
We'd like to see a universal flu shot, so we're not guessing every year, something that gives you lifelong protection against future strains because it targets a different part of the influenza virus.
And I'd like to see something powerful for PTSD.
A lot of Americans are still suffering from PTSD, some from having served in a war.
These are young people oftentimes who stood up to serve their country and they're suffering.
We are still losing 7,000 plus veterans a year to suicide.
So the wars are over, but our men and women keep dying, and many of these wars were unnecessary.
I think we owe it to them to deliver a powerful treatment for PTSD if the data supports that there's something out there.
So that's one of my personal goals.
You're optimistic about the pipeline you're seeing there?
Very optimistic. I mean, we're just seeing really interesting stuff. It's been published in part, so I'm not sharing anything here that's not public, but we've seen phase two trial results that are promising. And I go, you know, I go, Dave, to the scientific reviewers at the FDA without their bosses, just one on one. And I ask him, are you seeing anything early on that looks amazing? Are you seeing anything in the pipeline, anything in animal studies that's actually working in animals that could,
extrapolate to humans in a way that could be a game changer.
And I'd say 90% of the time they say,
nothing really that much of a leap.
We do a lot of non-inferiority studies, for example.
But every now and then somebody will tell me, yeah,
there's this mechanism, it's creative, it's different,
and if it works, it'll be amazing.
And we'll often issue that company of priority voucher.
A treatment came out for a certain type of congenital
deafness. That's a gene therapy device combination. It came out in the New England Journal of
Medicine. We read the article because we love to read these articles. That's our nature. And we
called the company and we confirmed about a dozen kids got it. A couple had normal hearing.
I mean, that's amazing. And so we immediately issued them a voucher. A new treatment for multiple
myeloma. That was a game changer. Three times better than anything out there now. 80% remission
free survival, I believe it was, at a couple of years out.
There's nothing like that on the market.
We called that company.
We had internal discussions within 24 hours of that abstract being printed in the pre-conference
materials for the American Society of Humatology.
We had been in touch with that company and issued them a voucher.
What are we waiting for?
What are we worried about?
We have got to move at the speed that my patients demanded, not at government speed.
So we are streamlining and modernizing the FDA, and we are not wasting time.
We're getting stuff done.
Well, for that, I don't know how anyone could disagree with the sentiment, the intent.
Thanks for the service.
Thanks for the work.
Marty, it's been great chatting today.
And thanks for being with me.
Great to be with you, Dave.
Thanks so much.